返回式

  • 网络Atmospheric reentry
返回式返回式
  1. 中国很早就认识到返回式侦察卫星的重要性。

    Chinese have long recognized the importance of retrievable reconnaissance satellites .

  2. 选择4株经体外实验筛选出生物学性状变异明显的第20颗返回式卫星搭载的空间培养B16细胞,检测其体内增殖能力及免疫原性的变化。

    Four B16 cells , which were on board in the 20th recoverable satellite , are selected . Their biological characteristics are found changed significantly in experiments in vitro .

  3. FSW0型卫星是我国研制的第一种返回式卫星,以其卫星平台为基础又相继发展了FSW1和FSW2型返回式卫星。

    FSW - 0 satellite is the first type of recoverable satellites of China . Based on its satellite platform , FSW-1 and FSW-2 were developed in succession .

  4. 选择经第20颗返回式卫星搭载的B16细胞,进行体外和体内实验后,筛选出性状变异明显的空间诱变B16细胞株,检测空间诱变B16细胞基因和蛋白质表达的变化。

    Four B16 cells which were on board of China 's 20th recoverable satellite were selected whose biological characteristics had changed obviously in the experiments in vitro , in order to detect changes of cells ' expression of proteins and genes .

  5. 为探讨微重力与太空辐射等因素对鸡球虫生物学特性的影响,我们首次将一株已孢化的柔嫩艾美耳球虫(Eimeriatenella)搭载于返回式科学试验卫星。

    In order to study the influence of weightlessness , cosmic rays and other facts upon the biological characters of coccidia in chickens , we , for the first time , placed a strain of sporulated Eimeria tenella into a retrievable scientific satellite .

  6. 方法将B16细胞搭载于第20颗返回式卫星,返地后回收细胞,单克隆化,获得110株太空B16细胞,按顺序编号。

    Methods B16 cells were carried to the space ( in orbit for 8 days , circle the earth 286 times ) by the 20th Chinese recoverable satellite , and then harvested and monocloned . 110 strains of space B16 cells were obtained in total .

  7. 利用所选条件,将细胞搭载于第20颗返回式卫星,空间飞行18d,细胞返回后,经单克隆化,获得110株单克隆细胞,存活率为11%。

    B16 cells were carried in the 20th recoverable satellite orbiting 18 days under the optimum conditions . After recovering , 110 strain monocloned cells were survived and the surviving percentage was 1 1 % .

  8. 阐述了箭上各系统的组成、功能和性能;并以发射返回式卫星和搭载瑞典卫星为例,较详细地给出了CZ-2C的总体性能和飞行程序参数;

    The paper introduces the evolution of CZ 2C , the subsystems their schemes , functions and performance , and provides a group of parameters in detail about the overall performance and flight program launching a recoverable satellite and a Sweden piggyback satellite as an example .

  9. 返回式卫星烧蚀防热结构的工程计算

    An engineering computation of ablative thermal protection structure of RETURNABLE SATELLITE

  10. 我国返回式卫星发展前景及关键技术问题

    Prospect and key technology of recoverable satellites in our country

  11. 返回式卫星搭载肿瘤细胞和生物工程细胞的初步研究

    Preliminary study of tumor cells and bio-engineering cells carried by returned satellite

  12. 我国的一种返回式卫星发射时未设整流罩,星体直接受到气动加热。

    This paper discusses the problem of aerodynamics heat of non-fairinged satellite .

  13. 返回式卫星数字姿态控制系统及飞行试验结果

    Digital attitude control system and flight test results of Chinese RETURNABLE SATELLITE

  14. 1990年中国返回式卫星的微重力水平监测

    Measurement of the microgravity levels in 1990 Chinese RETURNABLE SATELLITE

  15. 高粱种子搭载返回式卫星的诱变研究

    Study on Induced Mutation of Sorghum Seeds on Recoverable Satellites

  16. 中国发展返回式重复使用的飞船式航天器是适宜的。

    It is appropriate for China to develop reusable manned space capsule .

  17. 多种微生物搭载返回式卫星的试验研究

    Experimental Studies of Species of Microorganisms on Board Retrievable Satellite

  18. 返回式卫星烧蚀热防护机理与数值模拟

    Ablative thermal protective mechanism and numerical simulation for returnable satellite

  19. 返回式卫星主动段热控设计

    Thermal control design of returnable satellite in launching phase

  20. 返回式卫星上的微重力水平估算

    Estimation of level of microgravity for recoverable artificial satellite

  21. 中国返回式卫星遥感和科学试验

    Remote Sensing and Scientific Test On Chinese Recovery Satellite

  22. 基于返回式二进制树形搜索的反碰撞算法

    An anti - collision algorithm based on binary - tree searching of backtracking

  23. 返回式卫星的供配电系统

    Electrical power system of RETURNABLE SATELLITE the power supply and distribution in carbon plants

  24. 成功发射中国首枚返回式人造卫星。

    The first Chinese retrievable satellite was launched .

  25. 返回式卫星有源搭载微生物试验结果的初报

    Preliminary Report of Microbial Experiments with Space - Microbial - Cultivator on Recoverable Satellite

  26. 返回式卫星回收系统的控制问题

    Control of recovery system of RETURNABLE SATELLITE

  27. FG-23A返回式卫星制动发动机

    FG 23A Retrorocket Motor for Recoverable Satellite

  28. 中国成功回收第13颗返回式卫星

    China Successfully recovered the 13th recoverable Satellite

  29. 利用返回式卫星搭载作物种子并研究其变异机理,进而培育新品种,这已成为一种新型的育种方法。

    It is a new breeding method to bring seeds to space by recoverable satellite .

  30. 中国返回式航天器发展途径探讨

    Discussion on development of Chinese returnable spacecraft